At this stage, with the continuous evolution of Nuwa AI and Li Qingsong's persistent investment of brainpower and energy in biotechnology, the slow improvement process that started more than a hundred years ago has never stopped.
Over the years, his maximum number of consciousness connections has continued to increase at an average rate of a few tenths of a percent per year. Now, it has reached 170 million.
It is estimated that in another fifty or sixty years, the number will increase to 200 million.
"When the main fleet of the Bluetuk civilization arrives, I will be able to control 200 million clones at the same time. In this way, the largest manned fleet I can support will be about 140,000 Mercury-class battleships, 6,000 Venus-class battleships, and 120 Earth-class battleships. Together with various manned auxiliary spacecraft, the total size of the manned fleet will be around 160,000 spacecraft."
The construction of 160,000 spacecraft and warships of various types is undoubtedly an extremely large project.
Just considering the mass, the total mass of this fleet will be over 100 million tons.
To produce 100 million tons of war-related spacecraft, the total amount of materials required may be calculated in tens of billions of tons.
What's more, Li Qingsong did not intend to build only such a few spaceships.
The reason is very simple. Even if there are not enough clones to operate more spaceships at the moment, they can be built and stored first. In this way, once a spaceship is destroyed in the front line, new spaceships can be immediately replaced in the rear.
The number of war-related spaceships that Li Qingsong ultimately planned to build was not 160,000, but million!
In this case, the material demand may really reach hundreds of billions of tons.
The demand for materials was already huge enough to scare even the peak human civilization. But for Li Qingsong, this was only part of the solar system defense he wanted to build.
In addition, Li Qingsong has larger-scale construction needs.
One is the production of clones.
Just like the reserve warships, Li Qingsong will also deploy a large reserve of clones.
In this way, once a clone dies in battle, a backup clone can immediately take its place.
In the past, Li Qingsong would not be able to store too many clones.
Because clones also need to survive, they need food, oxygen, water, and a place to rest, and you have to spend energy every day to control them to exercise, otherwise they will get sick.
If the maximum number of consciousness connections is 170 million, then the total number of clones reaching 500 million is almost the limit. If there are more, it will occupy too many connections of Li Qingsong and affect the rest of the production and construction.
But this time, Li Qingsong plans to produce 3 billion clones!
The reason is simple. With the joint efforts of Nuwa AI and myself, a breakthrough in an extremely critical technology has been achieved.
Hibernation technology!
Today, Li Qingsong has achieved the goal of using technical means to make clones enter hibernation just like cold-blooded animals on Earth hibernate in winter.
The heartbeat of a clone in hibernation can reach a frequency of almost one beat per hour, and its metabolism is extremely slow. It basically does not age or get sick.
In addition to the construction of a fixed hibernation base, all that is needed to support the hibernation of the clones is some electricity, nutrient solution, and maintenance of a small number of clones. The cost of survival is greatly reduced, and it does not occupy any consciousness connections at all. There is no need to divide up energy every day to control them to exercise, eat, drink water, etc.
After comprehensive calculations, Li Qingsong set the number of backup clones at 3 billion.
This also means extremely huge construction needs.
Assuming that the mass of a hibernation chamber is 2 tons, the total mass of the hibernation chamber alone would reach 6 billion tons. If it were to be produced, it would probably require 100 billion tons of raw materials.
But it is obviously not enough to have only a hibernation chamber. We also need to build a huge hibernation base and have the assistance of various supporting factories.
Assuming that a hibernation base covers an area of 1 square kilometer and has 100 floors, and each floor can hold 1 million hibernation chambers, a hibernation base can accommodate 100 million clones for hibernation.
With 3 billion clones, I would have to build 30 such super-giant hibernation bases!
The materials involved are like mountains and seas.
But compared to the third construction, the first two are nothing.
The third construction is another vital component of the solar system’s defense: unmanned combat force.
Since his Goku AI is supposedly more powerful than his opponent, there is no reason for him not to use this advantage to the fullest.
If it is to be used to the extreme, it will inevitably be inseparable from a sufficient number of unmanned combat devices.
So Li Qingsong planned to build a very large unmanned combat force.
Unmanned combat cannot be separated from the control of supercomputers. In this case, we should manufacture supercomputers in large quantities, not only supercomputer ships that can maneuver freely, but also a large number of ground supercomputer bases!
Build 10,000 of them and calculate it!
If we want to build a ground-based supercomputer, we should build one on every large planet that is meaningful to us.
There must be enough supercomputers for the eight planets, satellites, and dwarf planets!
There must be at least 5,000 supercomputing ships, some of which are hidden in deep space as standby, and some of which can cruise freely in every battlefield to provide computing power support for every unmanned combat device.
I want Wukong to be able to transform into millions of incarnations and spread to every corner of the solar system!
Now that the computing power is solved, the next step is the actual combat equipment.
Although interstellar mines have low power and slow speed, they are also low in cost and can play a big role sometimes.
make!
If we assume that one million interstellar mines are deployed in one minefield, the solar system is so large that at least tens or even millions of minefields must be deployed, which means trillions of interstellar mines.
Assuming the mass of an interstellar mine is 1 kg, this is a mass of several billion tons.
Various satellites can play an extremely critical role on the battlefield.
Communications satellites, reconnaissance satellites, armed satellites... and so on.
make!
Make millions or tens of millions of them!
Interstellar nuclear missiles can also play a good role in space battlefields.
The most important thing is that this thing is easy to hide. Just find a corner in the deep space and throw it, and it can ensure good concealment.
Once it is needed and activated, driven by the unstoppable and irreversible nuclear explosion engine, its speed can be increased to an unprecedented speed of over 100 kilometers per second in a short period of time.
And the power is extremely huge.
An atomic bomb, even a small-yield one, exploding at close range cannot be blocked by a spacecraft.
make!
Make hundreds of thousands or millions of them and distribute them throughout the solar system.
In addition, interstellar turrets are also extremely critical.
Just think about it, how much of a role can a huge space fortress equipped with a variety of electromagnetic cannons, laser cannons, electromagnetic artillery, interstellar missiles, electromagnetic interference bombs and other weapons play in a battlefield?
Then...
make!
